Meta-analysis of NAD(P)(H) quantification results exhibits variability across mammalian tissues

Azouaoui, Dassine; Choinière, Michael René; Khan, Momtafin; Sayfi, Shahab; Jaffer, Simran; Yousef, Selvia; Patten, David A.; Green, Alex E.; Menzies, Keir J.

doi:10.1038/s41598-023-29607-8

Cited by 7 publications

(7 citation statements)

References 57 publications

(78 reference statements)

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“…NAD is involved in many processes, acting as a coenzyme for redox reactions in energy metabolism or substrate for numerous enzymes and is therefore primarily found intracellularly at an estimated 200–500 μM concentration depending on tissue. − Extracellular NAD concentrations are very low. The median concentration of NAD in human whole blood was determined to be 44 μM, whereby the NAD content primarily originates from the red blood cells, where a median concentration of 46 μM was determined, while blood plasma only contained 0.4 μM . However, some tumor cells exhibited elevated NAD levels in the extracellular matrix, for example in prostate cancer cells .…”

Section: Discussionmentioning

confidence: 99%

“…The median concentration of NAD in human whole blood was determined to be 44 μM, whereby the NAD content primarily originates from the red blood cells, where a median concentration of 46 μM was determined, while blood plasma only contained 0.4 μM. 37 However, some tumor cells exhibited elevated NAD levels in the extracellular matrix, for example in prostate cancer cells. 38 Inflammation can also trigger release of NAD into the extracellular space, about 10 μM NAD in a mouse model.…”

Section: ■ Conclusionmentioning

confidence: 99%

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Conditional Cell Penetration of Masked CPPs by an ADEPT-like Approach

Hofmann,

Dombrowsky,

Happel

et al. 2024

ACS Chem. Biol.

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The intracellular delivery of cargos via cell penetrating peptides (CPPs) holds significant promise as a drug delivery vehicle, but a major issue is their lack of cell type specificity, which can lead to detrimental off-target effects. We use an ADEPT-like concept to introduce conditional and selective activation of cellular uptake by using the lysine-rich, cationic, and amphiphilic L17E peptide as a model CPP. By masking the lysine residues of the L17E peptide with enzyme-cleavable acetyl protecting groups, the delivery of the covalently conjugated fluorophore TAMRA to HeLa cells was diminished. Recovery of cellular uptake could be achieved by deacetylation of the masked acetylated L17E peptide using the NAD-dependent sirtuin 2 (SirT2) deacetylase in vitro. Finally, trastuzumab-SirT2 and anti-B7H3-SirT2 antibody-enzyme conjugates were generated for the conditional and selective delivery of a cryptophycin cytotoxin by the L17E peptide. While the masked peptide still demonstrated some cytotoxicity, selective cell killing mediated by the antibodyenzyme conjugates was observed.

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Section: Discussionmentioning

confidence: 99%

Section: ■ Conclusionmentioning

confidence: 99%

Conditional Cell Penetration of Masked CPPs by an ADEPT-like Approach

Hofmann,

Dombrowsky,

Happel

et al. 2024

ACS Chem. Biol.

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“…In addition, intracellular NAD + levels vary between 1 µM and 1 mM [28,38]. Because NAD + and NADH are present endogenously in a wide range of concentrations [53], their simultaneous analysis is very difficult. Nucleotides tend to fragment in the source, producing interfering isobaric species.…”

Section: An Lc-ms/ms Approach To Quantify Nad(h) In Biological Samplesmentioning

confidence: 99%

“…There have been reports of NADH and indirectly measured NAD + in human plasma using an enzymatic assay [57], but none in mouse plasma samples [53]. Although there are reports of measuring only NAD + in whole blood samples [16][17][18], there are no reports of measuring NADH.…”

Section: Absolute Quantification Of Nad(h) In Biological Samplesmentioning

confidence: 99%

“…Different compositions of extraction buffers can change NADH to NAD + (or vice versa in enzyme assay buffers), so this should be kept in mind when measuring NAD(H) (especially trace amounts of NADH). Clement et al measured NAD(H) in human plasma using LC-MS/MS [45], but there have been no reports of studies measuring NADH in mouse plasma [53].…”

Section: Absolute Quantification Of Nad(h) In Biological Samplesmentioning

confidence: 99%

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A Simple, Fast, Sensitive LC-MS/MS Method to Quantify NAD(H) in Biological Samples: Plasma NAD(H) Measurement to Monitor Brain Pathophysiology

Ishima,

Kimura,

Kobayashi

et al. 2024

IJMS

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Nicotinamide adenine dinucleotide (NAD) is a cofactor in redox reactions and an essential mediator of energy metabolism. The redox balance between NAD+ and NADH affects various diseases, cell differentiation, and aging, and in recent years there has been a growing need for measurement techniques with improved accuracy. However, NAD(H) measurements, representing both NAD+ and NADH, have been limited by the compound’s properties. We achieved highly sensitive simultaneous measurement of NAD+ and NADH under non-ion pairing, mobile phase conditions of water, or methanol containing 5 mM ammonium acetate. These were achieved using a simple pre-treatment and 7-min analysis time. Use of the stable isotope 13C5-NAD+ as an internal standard enabled validation close to BMV criteria and demonstrated the robustness of NAD(H) determination. Measurements using this method showed that brain NAD(H) levels correlate strongly with plasma NAD(H) levels in the same mouse, indicating that NAD(H) concentrations in brain tissue are reflected in plasma. As NAD(H) is involved in various neurodegenerative diseases and cerebral ischemia, as well as brain diseases such as mitochondrial myopathies, monitoring changes in NADH levels in plasma after drug administration will be useful for development of future diagnostics and therapeutics.

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